Apparatus for testing panels and the like



April 27, 1948. P. E. SANDORFF 2,440,616

APPARATUS FOR TESTING PANELS AND THE LIKE Filed Dec. 2, 1944 2 SheetsSheet 1 4 JMAI I INVENTOR. PAUL E. SANDORFF AGENT April 27, 1948. P. E. SANDORFF APPARATUS FOR TESTING PANELS AND THE LIKE 2 Sheets-Shet 2 Filed Dec. 2, 1944 INVENTOR. PAUL E.SANDORFF AGENT Patented Apr. 27, 1948 2,440,616 .ARPAEAZEUSJEQR TES'EING'IIANELS MKE Raul SandQn L-LQS dn C assisnp 4 .0

Imeldwed @e n atiqn, di qbank @Q nnpiicatipn December 2, 1944, Serial No. 566 339 (G1. z'ifiwt) This invention has to do with the testing of parts and components, and has more particuilar reterence to apparatus ior testingstructural [parts and combinations to determinethe allow- ,able -.com-pr-essive stresses for the same.

In conventional compression panel tests the only readily determinable factors or quantities are the axial column load applied, the :failure dead and the length of :the column. The end .tlxity co-efiicient, including all end effects such .astelastio restraint, eccentricity and loading conditions, has heretofore =been incapable of "accurate determination. Where the value of the end :fixity co.=efiicient is uncertain an attempt must ibe "made to determine this factor from considerations -outside of the column dead relation to arrive at the allowable design stresses of the panel as it is to he employed. Finthermore, the obtained :by conventional panel testing methodsiisoften misleading because of the variation :in the eifectiv-e moment of inertia =of .the specimen column action due to buckling of 'a given part or .parts of :the snecimen. Where :the skin buckles it is difiicult or impossible to evaluate accurately the radius of gyration, .or

moment oftinertia .and it has been the practice to-employ the radius of gyrationof-alstifiiener alone. This property, in connection with the test data, :is ordinarily used to construct a -.curve depicting the relationship of strength to wiength, dander the .conditions .of .end fixity .obtaming during the tests. By comparison with the theoretical Euler relationship known to apnlyatstressgas :inslificient to cause plastio yieldingof thematerial, the value .of theend fixi-ty :is inferred. This -method is inaccurate ebecause of the possible variation in :test end fixity con- .ditiensiaetweemthe specimens i-mtheielastic range those in :the iplastic range, and alsobecause *theaforementioned effects of .zbucklingwhen they occur .in either the elastic or plastic .v-range. 'rl lnrthermore, the presence of slight eccentricity .of *loading for -of irregularity tin construction of -the specimen may introduce error which may vars; with the degree of .end restraint provided to the specimen. This idifliculty would not be .nsesent if =fu1l fix-i-ty of the specimen was insured. Although-it has been the general pram at e=to carefully machine the ends ofthe specimen fiat, se ere and .parallel in an attempt .:l-m.nh.tain gm and ithiiSbGQnsfOllIld that the end ix 5 .coefiicient of panels thus .prenared may varyconsiderably. these variations tesult -from several :causes such as bearingcontditions at the ends of :the panel, initial eccenclose machining ::tolerances, zetc. been impossible to accuratelyideterminewtheivalue of the end dixitycoeflicient .of limited .end panels,

*ing conditions. curate positioning and aligning .of the specimen prior te -the application of the test loadi-ng and the maintenance of the alignment during the der the test loading,

't-ricities of the .specimenlor .panel, glocalized yielding and i-rregulardoad stransferattthe panellends,

lateral motion .of w-t-he testing .head .caused i'b'y side load-s cannot the avoided .even with Where :it has :it has been :necessary to assume .a given .more

or :less arbitrary value :tor'this Ltactor tin ..evali1.-

ating the results of .the tests.

Jin object-oi ithe invention is ito provide an apparatus f or the compression testing of panels and the like, which facilitates the lobtaining 10f accurate test data under knowntorrdefiniteiload- The apparatus permits the actest period while preservingcomplete .end fixity of the panel.

Another object of ethe invention is to :pro-

.-vide anappanatusof =thetclass mentioned inwhich the s end portions 901 the panel are embedded in matrix material oast ain tubes which ii-n turn nee held-by special clamp :fixtures operable to transmit the axial test loads to the tubes,*matrix -material and panel. The. clamping action of the fixtures automatically producedloy the. axial load- =ing develops --pressures in the matrix "material so that uniformly distributed transmitted to the 'test panel.

-axial loading is A-further object of the "invention is to :provide an apparatus of the character reterred to in whichthe clamp fixtures areseli-energizing unembodying jaws supported in a nianner -to-pi-vot toward one another cinder the test loads to securely grip and clamp the natrix tubes -provided-on the ends o'f the panel, whichi-ixt ure s further include mechanisms having a high mechanical advantage for operating the jaws to obtain ;an initial clamping 'force prior to the application of the test loads.

Other objects and features of theinvention will he readily understood from thefollowingdetailed de e i t pn a typi a p e r d fo m of the nter ne siere g n l h mad to th e ce nanrins atnss i whic Hem is a ide elera ien er a test panel s cu ed-mated hytheclampinamean i ention. th 'machin be n shown i a Fig figure '3 .-is an enlarged vertical detailed gsecof Figure 5 taken substantially as indicated by line 6-6 on Figure 5 with the panel end tube removed and showing certain parts of the clamp means in vertical cross section; and

Figure 7 is an enlarged fragmentary perspective view of the screw mechanism of the clamp unit.

The method and apparatus of the invention are useful in the compression testing of parts, assemblies and components of various characters, and formed of materials differing considerably in their physical characteristics. In the drawings I have shown the apparatus employed in connection with the testing of an aircraft panel constructed of aluminum or aluminum alloy. This typical panel P comprises a sheet or skin In and spaced stiffeners H on the sheet. It will be considered that the sheet In and stiifeners H are formed of aluminum and/ or aluminum alloys. The panel P, illustrated, is a rectangular assembly or component. The upper and lower edges of'the panel P are finished square to ordinary sheet metal tolerances. This is the only preparation required curate costly machining of the end parts ofa test panel, essential in conventional methods of compression testing, is avoided in carrying out the present invention.

The upper and lower end portions of the panel P are embedded in matrix material l2 contained in tubes I3. The end tubes l3 are simple elongate tubular elementsof steel, or the like, having a suitable wall thickness. In practice I have found it desirable to construct the tubes I3 of lengths of seamless cold drawn steel tubing annealed prior to'machining to relieve residual stresses that might otherwise cause excessive warping. The tubes l3 have a length slightly in excess of the horizontal dimension of the panel P. The dimensions of the tubes l3 will vary in different applications of the invention, but it is desirable to proportion them so that their walls have the desired flexibility and resiliency. The tubes l3 are slotted throughout their lengths. each having an axial gap or slot M of substantially 120 circumferential extent to freely admit or receive the panel P. The slots M, in addition to allowing ready insertion of the panel P into the tubes l3 render the tubes radially flexible so that the clamp fixtures may flex the tube walls radially inward. and subject the matrix material I2 to the clamping pressures.

The matrix material l2 which secures the opposite end portions of the panel P in the tubes l3, preferably has a low pouring temperature, a short setting period, and a substantial tensile, compressive and shear strength. Further, it is desirable to employ a material [2 having a high elastic limit in compression and a high coefficient of friction with the material of the specimen or panel P. I have found that the hydraulic setting gypsum product known commercially as Hydro-stone, and manufactured by the 'U. S.

Gypsum Company, is satisfactory as a matrixand it is to be noted that the acmaterial is relatively light in material. This product when mixed with the proper proportion of water, is of a creamy consistency and is readily poured. The gypsum product is mixed at room temperature, sets in about fifteen minutes, and develops ample strength when allowed to harden about two hours. The set and hardened gypsum material has a brickette tensile strength of between 400 and 500 pounds per square inch and a compression strength of about 5,000 pounds per square inch, although it is capable of withstanding greater forces when confined in the end tubes I3. In addition to the characteristics of high strength, the Hydro-stone weight and has little or no creep under load. Further, and of special importance, is the fact that the Hydro-stone produces a light chemical etch on aluminum and aluminum alloys and therefore develops a high coefficient of friction with such metals. Although I have obtained excellent results with the gypsum matrix material referred to above, it is to be understood that the invention is not confined to the use of this class of matrix materials and satisfactory results are obtainable with other materials such as Woods metal, plastic materials,

.sulphur with and without fillers, etc.

In casting an end portion of the panel P in an end tube [3, it may be preferred to first accurately orient the panel with respect to the horizontally disposed tube l3. A suitable jig, not shown, may be employed for this purpose. The panel is indexed centrally between the walls of the tube slot M and is arranged to have its end spaced 2. suitable distance from the bottom wall of the tube. The locating jig is then firmly fixed relative to the tube I3 and the panel P is raised clear of the tube. It may be desirable to temporarily close the opposite ends of the slotted end tube 3. The matrix material i2 is then poured into the tube l3 in a sufiicient quantity to substantially fill the tube. The end portion of the panel P-is then re-introduced into the tube l3 and securely held in position by the jig to have its end portion remain embedded in the matrix material [2. The panel P may be firmly held in place while the material l2 sets. In the event the panel P has tubular or closed section stiffeners l I, it is desirable to provide a vent opening in each stiffener at a point to be clear of the end tubesl3 to allow the escape of air from the stiffeners, so that the matrix material may freely flow into the stifieners when the second end of the panel is cast or embedded in its tube [3.

In casting the second end of the panel P in its tube [3, the above procedure may be repeated.

However, when indexing or orienting the panel preparatory to casting its second end it is desirable to obtain parallelism of the two tubes 13. This may be readily accomplished by means of a carpenters level, or the equivalent. It is to be observed that the opposite end portions of the specimen or panel P may be easily and quickly embedded in the matrix material l2 of the two end tubes l3. In Figures 3 and 5 it will be noted that the matrix material I! completely encases and confines the opposite end portions of the panel P. The depth to which the panel ends are embedded depends upon the diameter of the tubes l3. Where the tubes have an outside diameter of four inches the panel has about two inches of its length embedded in the material l2 of each tube. The panel P is spaced clear of the end tubes Hand is contacted solely by thematrix material l2. The opposite ends of thepanel P are rigid with, and in effect, integral with the steel end tubes l3 which are parallel to ene another throughoutrthe entire or the panel.

The invention ffm ther includes fixtures 3E" aesttachableto the testing machine and operahie to clamp the end tubes I 3 $01- the :transmissien hr the aerial test loads to the panel iIfihese fittintures are the nature of separate units and it is "BI'ETEFIEQ to provide sets of identical hr standard units useful in connectionw i fh testing of specimens of different widths. In the particular case illustrated Figure 1, there are four like units or fixtures F at each end :01 the panel P. The several'fix tures -F may be irlientical and I will prooeed a fleseription ot on-e ifierture, it being understood that this description is applicable to the other units -or Each clamp iixtu-re F embodies a mounifing or supporting base It. The base I5 is the Term of a rectangular era-e of substantial Width. broad base of the clamping fixture prevents the nature from rocking away from the platens 1 6 of the test machine when extensive hearing ef the panel '1'? occurs during the test. The broa-"i base l'5 also prevents rotation of the fixture and end or the panel even though there may "be 1 considerable eccentricity of loading. rm lease 1'5 carries two longitudinally 'extending pamill-el knife edge supports n. The supports l are secured to-the upper side of the base adiacent its longitudinal edges by suitable screws 1 8. Two spaced parallel guides 19 are attached to the top of the base H by similar screws @0; The guides I 9 are spaced at opposite sides of the longi- 'tudirral axis of the base.

The clamping fixture further includes a pair of opposing jaws 2'! adapted "to engage 'ahout and clamp the end tube -13 of the panel. The jaws *2 I. have cylindrically curved "concave inner surfaces '22 for conforming to the tube. The surfaces 22 are of substantial extent so that the'tub-e i3 is engaged throughout practically its entire circumference. The jaws 2| are provided with base flanges "23 and reinforcing ribs 2 1 connect the active curved portions of thejaws with the base flanges. Thelower sides of the case flanges '23 are 'flat and horizontal except in zones adliacent their inner edges where they have upwardly and inwardly sloping or cylindrically curved surfaces 42. The base flanges 23 of the .two jaws 2! rest :upon the upper plate of a pair of superimposed flexihle plates 25. The flexible ,rilates 25 extend for the entire length of the base flanges '23 and :have their longitudinal edges ada'c'ent the corresponding ed es of the flanges.

While a single flexible plate '25 may be employed it is'nreferre'd to use the two superimposed plates to obtain the reou'ired stren th and yet provide for the desired flexibility. Elon'gate rectangular strips 25 engage the lower side of the un'derrilate 25 along its onposite longitudinal edgesj The base flanges '23, the "flexible plates '25 and the strips 26 are secured together by spaced bolts 2? ennaeed through vertical openings in'the parts.

Two spaced "blocks or pads '25 are secured to the under side of each strip "6 to mount the -respec-' tive jmv'Zi on asupport I"! of the fixture Ibase 1'5. The supports 11 are in the form of elongate Tub crums of the knife edge type'andthe pads-28 have fiat lower surfaces for .bearing on the crowns "or ed es of the sunporlts. With this mode of sup port the jaws 2! are capable '0? rotation about axes spaced a substantial distance at each side the central axial plane -.of the panel The earls 28 have sockets or openings receiving the heads =o'f the bolts 2*! and the pads may :hc

attached ito the strips 28 screws-ill; It he :seen the-t upon application of reressure to ithe panel P ittmough the medium of the 'IzF'the 'ioads tra-nsmitted fimm ithe flnwer pertions of the jaw :sunfaces 22 to. the tube 43 result iintmtafiien nf jaws abcutthei'r individual :axes :of rot-erbium to cause the flaws to exert 1a. clamping :pressure the tube !3, the matrix material fl! and rpan-el rend. clamping fierce is proportional ito the axial zloading increases as the testiload iis amplified; "Ilheqalates 5 alur'ing :thezprvoting :ormtating .of the jaws and itched :or curved surfaces 42 rotation of the "jaws with the slightly bowed plates without eonoentratnrg leads an ithe :plaises.

The clamp :fixtnre :Eurther includes a :screw thread actuated means for operating rthe jaws I2! to the aocmzate aligning and nosition ing rcf :the panel? prior to the application of ith'e actual test Lloads. includes loading plates' "SJ arranged ihetween the spaced pads mirof the jawassemhliesandxsecured to "the lease flanges 13 iby bolts 82. The supports .44 may the snatched :out to. receive the heads ref-the bolts. A single razssemhly bolt may pass ,thrcuglii over size uentica'l :opemngs in the base flange :23, flexible plates 25, theload ing plate 521 to hold the several :parts sci each jaw unit in the assembled Iihe melts may have their heads scounter eurfli din the under side nfthe :hase plate to retain the jaw assembly in position-zen the base. 'filhesloaiiing plates-3:! extendjnwartlly and have dewnturnedzflanges 34 extending along their inner eflges. The flanges M engage 413118 mter traces-0f the aboue zrefienreri to zgnizdes l-Q.

lithe :screw actuated mechanism includes an elongate rotatable rod :85 arranged horrizomtallw :in space between the guides 18%. Spaced of the stem '35 carry screw mnezthreaddfitista-rigirthanrhthread and the-other ais-aleftehandthread. A trunnion block 3'! is enaaeed on each threaded iportiomof the stem 35. The bleclrs have threads lintheir npemines with the screw threads- 36. :38 emejeet zthe onpesite sides cf the :hloeks '31 and :sliclahly operate .in slots 13972;!!(5. ill-fin the guides N9 and :flaznges -34. Theslots 3.9 in the guides E9 :slepe upwardly and toward the nnposit'e ends nfithe fixture. Although the slots 43!! in the "plate zfilanges vtilt :azre shewn sloping downwardly and. 'onpositeends :of the fix tureptheymy behori-zontal. QQtPIEaSI GIIB end ef the screwstem '35 is menaned tor engagement lawn wrenehnr the :In Ilhave :a mlzwgonalshead M rm amend-of the :stem Upenrdtation of the :screw :35 in r938 fiimenifinn the trunninns 38fimoveitoward nne :a-nnth-e1- and the r ecuperation with the :onncsitely hitched slots e9 Ml @moues the jaws ,2! about their individual axes of" rotatinndto clamp the 1%! Establish hf the mew stem 35 an the ffirection causes unorvement'ofthe blocks 3:! :38 towzm'i :the :onnesite (ends or the nature and the itrnnnicms mevinarthreughnth'e elots M ans! 40 mutate the items is! eutwardly er awavi-frremxtheltnhe J3. The head 4 of vthesclte w stem is accessible ,from the end of the fixture for ready (enaaaementhya socket wrench, cor thelike. Su-ifilcient .snaeecremains between the base island the elements thereahove.,,so that the "head 14! of the screw stem 35. embodied in a fixture which .is he secondin order Truman end of aseries of ffhzhires, "may readilyhe enga ed by a long ham flied 'Wren'ch. In operating the screw actuated mechanism it may "be preferred to 'emnloy 'a torque responsive wrench, or torque indicating wrench to avoid straining of the mechanism.

One or more fixtures'F of the character above described may be arranged on each platen iii of the test machine, the number of fixtures employed depending upon the width of the specimen to be tested. The fixtures F. may be secured to the platens It in any appropriate manner. For example, the fixtures F may be removably secured to the platens 55 by suitable clamps d3. Where a plurality of fixtures F is required at each end of the panel P it is preferred to arrange the fixtures in engaging or close relation as shown in Figure 1.

.In employing the apparatus, the opposite end portions of the panel P are embedded or cast in the matrix material l2 as described in detail above. The required number of fixtures F is then slid on each end tube [3 of the panel and the assembly is arranged in the test machine. When the machine embodies an adjustable upper platen or head carried by two spaced threaded columns 44 the position of the panel P transversely with respect to these columns is important because the machine head acts somewhat as a balanced beam and is not rigid. However, the position of the panel P may be readily determined from geometric considerations of the panel, and once determined, will not change upon the application of the test load. Prior to clamping the end fixtures F an initial load is preferably applied by the test machine to set. the testing machine. The specimen or panel P is then checked for vertical alignment and straightness. The cylindrical end tubes i3 and the cylindrical surfaces 22 ofthe'fixture jaws 2i allow for ample automatic and manual adjustment of the panel P to obtain the required setting or positioning of the panel. The fixtures F may then be actuated by their screw threaded mechanisms to solidly clamp or grip the tubes l3, whereupon the test load may be applied. As the'test load is applied, the jaws 2| of the fixture F rotate toward one another under the axial loading and subject theend tubes l3 and matrix material [2 to compression. The forces thus developed are transmitted to the panel P by the material I2 which has good frictional contact with the panel. The material [2 is in effect subjected to hydrostatic pressure to transmit uniformly distributed fixing pressures to the panel P. There is greatly reduced possibility of eccentric loading, rotation of the panel ends or non-uniform loading of the panel ends. In fact, the apparatus is such that for all practical purposes it may be considered that full fixity of the panel ends is obtained. With full fixity assured the obtaining or formulating of accurate test data is greatly simplified and expedited.

At the completion of the test the fixtures F may be detached from the testing machine and released so that they may he slid from the end tubes l3. The simple rotation of the screw stems 35 rotates the clamp jaws 2| to the released positions to free the fixtures for easy removal from the end tubes [3. The matrix material [2 may be removed from the end tubes 13 so that the tubes may be re-used in subsequent tests.

Having described only a typical form of the invention I do not wish to be limited to the specific details herein set forth, but wish to reserve to myself any variations or modifications that may appear to those skilled in the art or fall within the scope of the following claims.

.I claim:

1. Apparatus useful in compression testing a specimen having an appreciable dimension transverse of the direction of the compression to be applied comprising tubes to be arranged with their long axes transverse of said direction of compression and having axial slots receiving the opposite end portions of the specimen, matrix material in the tubes embedding said end portions, and fixtures for clamping radially inward on the tubes and operable to transmit the compression test loading to the tubes. I

2. Apparatus useful in compression testing a specimen having an appreciable dimension transverse of the direction of the compression to be applied comprising tubes to be arranged with their long axes transverse of said direction of compression and having axial slots receiving the opposite end portions of the specimen, matrix material in the tubes confining the end portions of the specimen and spacing the same from the tubes, and clamp fixtures engaging the tubes and operable to transmit the compression test loading to the tubes.

3. Apparatus useful in compression testing .a specimen comprising a cylindrical tube at each end of the specimen having an axial slot receiving the specimen, bodies of matrix material cast in the tubes for embedding the end parts of the specimen therein, and at least one clamp fixture having a cylindrical opening receiving each tube for initial adjustment, and means for supporting the clamp fixture to automatically clamp inwardly on the tube when the assembly is subjected to compressive forces, said means including forcetransmitting fulcrums cooperating with the fixture to support and actuate the same.

4. Apparatus useful in compression testing a specimen comprising a tube at each end of the specimen having an axial slot receiving the specimen, bodies of matrix material cast in the tubes and embedding the end parts of the specimen therein, and at least one clamp fixture engaging about each tube and operable to automatically clamp inwardly thereupon when the assembly is subjected to compressive forces, each fixture including a pair of jaws, and knife-edge means supporting the jaws for rotation toward one another.

5. Apparatus useful in compression testing a specimen comprising a cylindrical member rigid with each end of the specimen and at least one clamp fixture engaging about each member and operable to automatically clamp inwardly thereupon when the assembly is subjected to compressive forces, each fixture including a pair of jaws defining a substantially cylindrical opening adjustably receiving the member and knife-edge means supporting the jaws for rotation toward and away from one another. 7

6. Apparatus useful in compression testing a specimen comprising a tube rigid with each end of the specimen and at least one clamp fixture engaging about each tube and operable to automatically clamp inwardly thereupon when the assembly is subjected to compressive forces, each fixture including a base, a pair of jaws for clamping about a tube, fulcrum means on the base supporting the jaws for rotation toward one another to clamp the tube when the testing compression is applied, and a flexible coupling between the jaws.

- "7. Apparatus useful in'compression testing a specimen comprising a tube at each end of the 75 specimen having an axial slot receivingthe specimen, bodies of matrix material cast in the tubes and embedding the end parts of the specimen therein, and at least one clamp fixture engaging about each tube and operable to automatically clamp inwardly thereupon when the assembly is subjected to compressive forces, each fixture including a base, a pair of opposing jaws having surfaces for substantially conforming to a tube, fulcrum means on the base supporting the jaws for rotation toward one another about axes' spaced laterally from said surfaces whereby the jaws rotate toward one another to grip the tube upon the application of the testing pressure, and manually operable means for rotating the jaws toward and away from one another.

8. Apparatus useful in compression testing ,a specimen comprising a tube rigid with each end of the specimen and at least one clamp fixture engaging about each tube and operable to automatically clamp inwardly thereupon when the assembly is subjected to compressive forces, each fixture including a base, a pair of opposing jaws having surfaces for conforming to a tube, fulcrum means on the base supporting the jaws for rotation toward one another about axes spaced laterally from said surfaces whereby the jaws rotate toward one another to grip the tube upon the application of the testing pressure, and screw thread actuated means for rotating the jaws toward and away from one another.

9. Apparatus useful in compression testing a specimen comprising a tube at each end of the specimen having an axial slot receiving the specimen, bodies of matrix material cast in the tubes and embedding the end parts of the specimen therein, and at least one clamp fixture engaging about each tube and operable to automatically clamp inwardly thereupon when the assembly is subjected to compressive forces, each fixture including abase, a pair of opposing jaws having surfaces for conforming to a tube, fulcrum means on the base supporting the jaws for rotation toward one another about axes spaced laterally outward from said surfaces whereby the jaws rotate toward one another to grip the tube upon the application of the testing pressure, and superimposed flexible plates coupled between the jaws, the plates being flexed upon said rotation of the jaws toward one another.

10. Apparatus useful in compression testing a specimen comprising a tube rigid with each end of the specimen and at least one clamp fixture engaging about each tube and operable to automatically clamp inwardly thereupon when the assembly is subject to compressive forces, each fixture including a base, a pair of jaws each having a base flange opposing said base and having a surface on its inner side conforming generally to the tube, a flexible plate connecting said base flanges, and spaced ridges on the base each supporting a jaw for rotation about an axis remote from said surface of the respective jaw whereby the jaws swing toward one another to clamp the tube when the test loading is applied.

IL'Apparatus useful in compression testing a specimen comprising a member rigid with each end of the specimen and at least one clamp fixture for engaging about each member and operable to automatically clamp inwardly thereupon when the assembly is subjected to compressive forces, each fixture including a base, a pair of jaws each having a base flange spaced from said base and each having an inner surface for substantially conforming to a member, flexible plate means connecting the base flanges of the jaws, bearing pads carried by the flanges, fulcrum ridges on said base cooperating with the bearing pads to support the jaws for rotation about axis parallel with the member and remote from said surfaces whereby the jaws are swung toward one another to clamp the member upon transmitting the test load through the fixture, and manually operable for rotating the jaws.

12. Apparatus useful in compression testing a specimen in a testing machine comprising end tubes rigid with opposite ends of the specimen, fixtures adapted to be secured to the machine operable to clamp about said tubes and transmit the testing load to the tubes and panel, each fixture comprising a base, a pair of jaws, means associating the jaws with the base to automatically rotate into clamping engagement with a tube upon the application for the testing load to the base, and manually operable means for initially rotating the jaws comprising parts on the base and laws having cam slots, and screw actuated trunnions operable in the slots to rotate the jaws.

13. Apparatus useful in testing a specimen in a test machine, the specimen having an appreciable dimension transverse of the direction of the test load to be applied, the apparatus comprising a cylindrical member adapted to be rigidly associated with each end of the specimen to have its long axis extend transverse of said direction of load, and means attachable to the machine and adjustably receiving the cylindrical members to allow initial alignment of the specimen.

14. Apparatus useful in testing a specimen in a test machine, the specimen having an appreciable dimension transverse of the direction of the test load to be applied, the apparatus comprising a cylindrical member adapted to be rigidly associated with each end of the specimen to have its long axis extend transverse of said direction of load, and clamp fixtures adapted to be attached to the machine and defining cylindrical openings for receiving said members to allow initial alignment of the specimen, and means operable upon the application of the test loading for actuating the fixtures to clamp the members.

PAUL E. SANDORFF.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS by Chapman 8: Hall, Ltd., London, 1922, vol. 1, pg. 82. 

